KR20150001242U - A circuit breaker - Google Patents

Abstract

A bimetal gap adjusting device for supporting a bimetal and moving the bimetal plate and a bimetal plate movably in the casing in first and second directions to increase or decrease a gap between the bimetal and the trip bar, It is possible to easily adjust the bimetal gap not only when the permanent deformation of the bimetal plate occurs but also when the bimetal plate is generated, thereby increasing the reliability of the breaker operation and reducing the resources required for controlling the bimetal gap.

Description

{A CIRCUIT BREAKER}

The present invention relates to a wiring breaker, and more particularly, to a wiring breaker using a bimetal as a trip element of a breaker and having a gap (hereinafter referred to as a bimetal gap) between the bimetal and the trip bar.

In general, a circuit breaker is an electric device that protects circuits and load devices by automatically shutting off the line when an abnormal current is generated.

1 is a cross-sectional view showing an example of a conventional wiring breaker.

As shown in the figure, the wiring breaker includes an opening / closing mechanism 2 for generating a driving force in the casing 1, an opening / closing part 4 for opening / closing the line by the driving force transmitted from the opening / closing mechanism 2, 2) to cut off the line at the time of an accident.

The trip mechanism includes a trip bar 6 for tripping the opening and closing mechanism 2, a bimetal 8 for bending the trip bar 6 in one direction as the temperature rises as the transient current exceeds a rated current, 8 for supporting the bimetal plate 10, a bimetal plate 10 movably installed inside the casing 1, and a set screw 20 for moving the bimetal plate 10.

The operation of such components will now be described with reference to FIG.

1, when the operator rotates the handle 2a of the opening / closing mechanism 2 in the rightward direction in the drawing, the movable contact 4a of the opening / closing part 4 is fixed to the movable contact 4a by the link structure of the opening / It is understandable that the contacts (not shown) come into contact with each other and the circuit breaker is turned ON.

On the other hand, when a fault current is generated in the line, the bimetal 8 is heated by itself as the fault current is passed through the bimetal 8. The bimetal 8 is bent in the right direction in the figure, As the trip bar 6 is pushed rightward in the drawing, the trip bar 6 is rotated in the clockwise direction in the drawing. Then, the opening and closing mechanism 2 is released from the trip bar 6, and eventually the movable contactor 4a is disconnected from the fixed contact (not shown), and the line is opened, at which time the breaker trips the fault current .

The operation of the bimetal plate 10 and the set screw 20 for setting the bimetal gap BG will be described in more detail as follows. .

1, when the operator turns the set screw 20 in one direction by a driver (not shown) or the like, the set screw 20 moves inward of the casing 1 and the turning portion 12 of the bimetal plate 10 is rotated, And the bimetal plate 10 is bent upward in the drawing with the supporting portion 16 of the bimetal plate 10 supported by the casing 1 as a fulcrum. Accordingly, the bimetal 8 fastened to the bimetal plate 10 is moved in the right direction in the figure so as to be close to the trip bar 6, so that the bimetal gap BG becomes small.

On the contrary, when the operator rotates the set screw 20 in a direction opposite to the one direction by a driver (not shown) or the like, the set screw 20 moves outwardly of the casing 1 and the bimetal plate 10 And is expanded downward in the drawing by an elastic restoring force. As a result, the bimetal 8 is moved to the left in the drawing so as to be away from the trip bar 6, and the bimetal gap BG becomes larger.

However, the conventional circuit breaker as described above can permanently deform the bimetal plate 10 by excessive movement of the set screw 20 in the casing 1 inward. In this case, even if the set screw 20 is moved outwardly of the casing 1, the bimetal plate 10 is not unfolded, and thus the bimetal 8 is also moved in the left direction in the figure to be away from the trip bar 6 Do not. Accordingly, when the bimetal plate 10 is permanently deformed, the worker must disassemble the assembled product (not shown) to unfold and reassemble the bimetal plate 10 by force. Thus, the bimetal gap BG can not be easily adjusted, Thereby wasting resources required for controlling the gap (BG).

It is an object of the present invention to provide a circuit breaker having a bimetal gap adjusting means capable of easily adjusting a bimetal gap not only when a permanent deformation of a bimetal plate occurs but also when it occurs.

In order to achieve the object of the present invention, An opening / closing mechanism provided inside the casing for generating a driving force; An opening / closing unit for opening / closing the line by the driving force transmitted from the opening / closing mechanism; And a trip mechanism that is interlocked with one end of the opening / closing mechanism to forcibly shut off the line at the time of an accident, wherein the trip mechanism trips the trip mechanism; A bimetal for moving the trip bar to trip; A bimetal plate supporting the bimetal and movably installed inside the casing; And a bimetal gap adjusting means for moving the bimetal plate in first and second directions to increase or decrease a gap between the bimetal and the trip bar.

The bimetal gap adjusting means may include: a set screw for moving the bimetal plate in a first direction; And a gap adjusting spring having one end contacting the bimetal plate and the other end supported by the casing to move the bimetal plate in a second direction.

The bimetal gap adjusting means includes a set screw which is coupled to one end of the bimetal plate and moves the bimetal plate in the first or second direction according to the rotation direction .

A bimetal gap adjusting device for supporting a bimetal and moving the bimetal plate and a bimetal plate movably in the casing in first and second directions to increase or decrease a gap between the bimetal and the trip bar, It is possible to easily adjust the bimetal gap not only when the permanent deformation of the bimetal plate occurs but also when the bimetal plate is generated, thereby increasing the reliability of the breaker operation and reducing the resources required for controlling the bimetal gap.

1 is a sectional view showing an example of a conventional wiring breaker,
FIG. 2 is a sectional view showing an internal structure of a circuit breaker according to a first embodiment of the present invention; FIG.
3 is a sectional view showing an internal structure of a circuit breaker according to a second embodiment of the present invention;
Fig. 4 is a sectional view showing a main part of the bimetal gap adjusting means of Fig. 3; Fig.

2 is a cross-sectional view illustrating an internal structure of a circuit breaker according to a first embodiment of the present invention. The circuit breaker according to the first embodiment of the present invention will now be described.

As shown in FIG. 2, the circuit breaker 100 according to the first embodiment of the present invention includes an opening / closing mechanism 2 for generating a driving force inside the casing 1, An opening / closing part 4 for opening and closing the line by the opening / closing mechanism, and a trip mechanism for forcibly interrupting the line at the time of an accident.

The trip mechanism includes a trip bar 6 for tripping the opening and closing mechanism 2, a bimetal 8 for bending the trip bar 6 in one direction as the temperature rises as the transient current exceeds a rated current, A bimetal plate 10 which supports the bimetal 8 and the trip bar 6 and supports the bimetal plate 10 and the trip bar 6 by moving the bimetal plate 10 in the first and second directions, And bimetal gap adjusting means GA1 for increasing or narrowing the bimetal gap BG.

The bimetal gap adjusting means GA1 according to the first embodiment includes a set screw 20 for moving the bimetal plate 10 in the first direction and a set screw 20 having one end contacted with the bimetal plate 10 and the other end connected to the casing 1, And a gap adjusting spring 130 installed to be supported on the bimetal plate 10 to move the bimetal plate 10 in a second direction.

The bimetal plate 10 is formed with a support portion 16 for supporting the casing 1 and a rotary portion 12 is formed so that the bimetal plate 10 is in contact with the set screw 20 on one surface and is in contact with the gap adjustment spring 130 on the opposite surface. And the transfer portion 14 is formed to be engaged with the bimetal 8.

The set screw 20 is formed with a fastening portion 24 so as to be threaded through the casing 1 and an external operating portion 22 is formed to be exposed to the outside of the casing 1, The driving portion 26 is formed so as to be in contact with the eccentric portion 12.

The gap adjusting spring 130 is disposed on the opposite side of the set screw 20 with respect to the turning portion 12 of the bimetal plate 10 such that one end is supported by the casing 1 and the other end is brought into contact with the bimetal plate 10 Respectively.

In this case, it is preferable that the set screw 20 and the gap adjusting spring 130 are arranged so as to be aligned in a straight line with the bimetal plate 10 interposed therebetween, but they may be arranged in an offset manner.

The gap adjusting spring 130 is preferably installed as a compression spring so that the set screw 20 can apply a load to the bimetal plate 10 in a direction opposite to the load applied to the bimetal plate 10, Or may be provided with the same elastic member.

In the drawings, the same reference numerals are given to the same portions as those in the prior art.

The operation and effect of the circuit breaker 100 according to the first embodiment are as follows.

2, when the operator rotates the handle 2a of the opening / closing mechanism 2 in the rightward direction in the figure, the movable contact 4a of the opening / closing part 4 and the fixed contact 4a of the opening / (Not shown) are brought into contact with each other to turn on the breaker.

On the other hand, when a fault current is generated in the line, the bimetal 8 is self-generated as the fault current is passed through the bimetal 8. The bimetal 8 is bent in the right direction in the figure, As the trip bar 6 is pushed rightward in the drawing, the trip bar 6 is rotated in the clockwise direction in the drawing. Then, the opening and closing mechanism 2 is released from the trip bar 6, and eventually the movable contactor 4a is disconnected from the fixed contact (not shown), and the line is opened, at which time the breaker trips the fault current.

The bimetal plate 10 and the bimetal gap adjusting means GA1 of the wiring breaker 100 according to the first embodiment have the following advantages.

When the worker rotates the outer operating portion 22 of the set screw 20 in one direction with a screwdriver or the like, the set screw 20 moves in the inner direction of the casing 1 according to the screw fastening structure with the casing 1 The gap adjusting spring 130 is compressed and the bimetal plate 10 is moved in the first direction in the upward direction in the drawing with the support portion 16 as a fulcrum Bend. Accordingly, the bimetal 8 fastened to the bimetal plate 10 is moved in the right direction in the figure so as to be close to the trip bar 6, so that the bimetal gap BG becomes small.

On the other hand, when the operator rotates the outer operating portion 22 of the set screw 20 in the opposite direction to the one direction by a driver (not shown) or the like, the set screw 20 is moved in the direction The bimetal plate 10 is expanded in the second direction which is the downward direction in the drawing due to the resilient restoring force of the bimetal plate 10 and the elastic restoring force of the compressed gap regulating spring 130 . As a result, the bimetal 8 is moved to the left in the drawing so as to be away from the trip bar 6, and the bimetal gap BG becomes larger.

On the other hand, even if the operator moves the set screw 20 outwardly of the casing 1 when the set screw 20 moves excessively toward the inside of the casing 1 to permanently deform the bimetal plate 10, The bimetal plate 10 is not deformed but the load is applied to the rotary part 12 of the bimetal plate 10 in which the compressed gap adjustment spring 130 is permanently deformed to force the bimetal plate 10 downward in the drawing The bimetal 8 is moved in the left direction in the drawing so as to be away from the trip bar 6, and the bimetal gap BG becomes large.

The circuit breaker 100 according to the first embodiment includes a bimetal plate 10 supporting a bimetal 8 and movably installed inside the casing 1 and a bimetal plate 10 extending in the first and second directions And a bimetal gap adjusting means GA1 for increasing or decreasing a gap BG between the bimetal 8 and the trip bar 6. The bimetal gap adjusting means GA1 adjusts the bimetal plate 10 in the first direction And a gap adjusting spring 130 which is in contact with the bimetal plate 10 and whose other end is supported by the casing 1 to move the bimetal plate 10 in the second direction The bimetal gap BG can be easily adjusted not only when the permanent deformation of the bimetal plate 10 occurs but also when the bimetal plate 10 is generated, thereby increasing the reliability of the breaker operation and reducing the resources required to control the bimetal gap BG .

The bimetal plate 10 and the bimetal gap adjusting means GA1 of the wiring breaker 100 according to the first embodiment increase the resistance force when the gap adjusting spring 130 operates the set screw 20, It is possible to prevent permanent deformation of the bimetal plate 10 due to excessive operation of the bimetal plate 20.

FIG. 3 is a cross-sectional view showing the internal structure of a circuit breaker according to a second embodiment of the present invention, and FIG. 4 is a cross-sectional view showing a main part of the bimetal gap adjusting means of FIG.

As shown in FIGS. 3 and 4, the circuit breaker 200 according to the second embodiment of the present invention differs from the first embodiment in that the bimetal plate 10, the set screw 20, Only a screw-fastening bimetal plate 210 and a protruding set screw 220 are included instead of the spring 130.

That is, the circuit breaker 200 according to the second embodiment includes an opening / closing mechanism 2 for generating a driving force inside the casing 1, an opening / closing part 4 for opening / closing the line by the driving force transmitted from the opening / closing mechanism 2 And a trip mechanism interlocked with the opening / closing mechanism 2 to forcibly shut off the line at the time of an accident.

The trip mechanism includes a trip bar 6 for tripping the opening and closing mechanism 2, a bimetal 8 for bending the trip bar 6 in one direction as the temperature rises as the transient current exceeds a rated current, 8 and a movable bimetal plate 210 and a screwed bimetal plate 210 movably installed in the casing 1 in the first and second directions to move the bimetal 8 and the trip bar And a bimetal gap adjusting means (GA2) for increasing or reducing the gap (BG).

The bimetallic gap adjusting means GA2 according to the second embodiment is constructed so as to penetrate through one end of the screw clamping type bimetal plate 210 and to move the screw clamping type bimetal plate 210 in the first or second direction Shaped protruding set screw 220. The protruding set screw 220 has a protruding shape.

The screw fastening bimetal plate 210 has a support portion 16 formed to be supported by the casing 1 and penetrated by a fastening drive portion 226 of a projection type set screw 220 An annular hole 212 is formed, and a transfer unit 14 is formed to be coupled to the bimetal 8.

The protruding type set screw 220 has a fastening protrusion 224 formed to surround the circumference of the protruding set screw 220 so as to be fastened to the casing 1 in an idle state and to be exposed to the outside of the casing 1, The bimetal plate 210 is formed with a fastening drive unit 226 through which the screw-type bimetal plate 210 is screwed.

In the drawings, the same reference numerals are given to the same portions as those in the prior art.

The action and effect of the screw-fastening type bimetal plate 210 and the bimetallic gap adjusting means GA2 of the wiring breaker 200 according to the second embodiment are as follows.

When the worker rotates the outer operating portion 22 of the projecting type set screw 220 in one direction with a screwdriver or the like, the projecting type set screw 220 rotates in the direction of the idling engagement with the casing 1 The screw driving bimetal plate 210 is moved in the upward direction in the drawing and the bimetal plate 210 is moved in the direction of the support portion 16, As a supporting point, in a first direction which is an upward direction in the drawing. As a result, the bimetal 8 fastened to the screw fastening bimetal plate 210 is moved in the right direction in the drawing so as to be close to the trip bar 6, so that the bimetal gap BG becomes small.

On the contrary, when the operator rotates the outer operating portion 22 of the projecting type set screw 220 in the direction opposite to the one direction by a driver (not shown) or the like, the projecting type set screw 220 is rotated by the idle The fastening driving portion 226 is rotated in the direction opposite to the one direction so as to move the rotary hole 212 in the downward direction in the drawing, The bimetal plate 210 expands in the second direction, which is the downward direction in the drawing. As a result, the bimetal 8 is moved to the left in the drawing so as to be away from the trip bar 6, and the bimetal gap BG becomes larger.

On the other hand, when the projecting type set screw 220 is excessively rotated in one direction for bending the screw-fastening bimetal plate 210 in the first direction, that is, upward in the drawing, to permanently deform the screw-fastening bimetal plate 210, When the worker rotates the projecting type set screw 220 in the opposite direction to the one direction, the fastening drive portion 226 rotates in the opposite direction of the one direction to move the rotary hole 212 in the downward direction in the drawing, The bimetal plate 210 is forcibly expanded in the second direction in the downward direction in the drawing. As a result, the bimetal 8 is moved to the left in the drawing so as to be away from the trip bar 6, and the bimetal gap BG becomes larger.

The circuit breaker 200 according to the second embodiment includes a screw type bimetal plate 210 and a screw type bimetal plate 210 which support the bimetal 8 and are movably installed inside the casing 1, And a bimetal gap adjusting means (GA2) for moving the bimetal (8) and the trip bar (6) in the first and second directions to increase or decrease a gap (BG) between the bimetal (8) The bimetal plate 210 includes a projection-type set screw 220 that is inserted through one end of the bimetal plate 210 and moves the screw-type bimetal plate 210 in the first or second direction along the rotation direction. The bimetal gap BG can be easily controlled not only when the permanent deformation of the bimetal 210 is generated but also when it occurs, thereby increasing the reliability of the breaker operation and reducing the resources required for controlling the bimetal gap BG have.

The operation and effect of the circuit breaker 200 according to the second embodiment of the present invention are the same as those of the circuit breaker 100 according to the first embodiment described above, and thus will not be described in order to avoid redundancy.

1: casing 2: opening / closing mechanism
2a: handle 2b: linkage
4: opening and closing part 4a: movable contact
6: Trip bar 8: Bimetal
10: bimetal plate 12:
14: transfer part 16: support part
20: set screw 22:
24: fastening part 26:
100: The circuit breaker according to the first embodiment
130: gap adjustment spring
200: Circuit breaker according to the second embodiment
210: screw fastening type bimetal plate 212: turning hole
220: projection type set screw 224: fastening projection
226: fastening drive part BG: bimetal gap
GA1, GA2: Bimetal gap adjusting means

Claims (4)

Casing;
An opening / closing mechanism provided inside the casing for generating a driving force;
An opening / closing unit for opening / closing the line by the driving force transmitted from the opening / closing mechanism; And
And a trip mechanism that is interlocked with one end of the opening / closing mechanism to forcibly cut off the line at the time of an accident,
The trip mechanism
A trip bar for tripping the opening / closing mechanism;
A bimetal for moving the trip bar to trip;
A bimetal plate supporting the bimetal and movably installed inside the casing; And
And bimetal gap adjusting means for moving the bimetal plate in first and second directions to increase or decrease a gap between the bimetal and the trip bar. The method according to claim 1,
The bimetal gap adjusting means includes a set screw for moving the bimetal plate in a first direction; And
Wherein the bimetal plate includes a gap regulating spring which is in contact with the bimetal plate at one end and is supported by the casing at the other end to move the bimetal plate in a second direction. 3. The method of claim 2,
Wherein the set screw and the gap adjusting spring are arranged so as to be aligned in a straight line with the bimetal plate interposed therebetween. The method according to claim 1,
Wherein the bimetal gap adjusting means comprises a set screw coupled to one end of the bimetal plate to move the bimetal plate in a first or second direction along a rotating direction.

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